Primitive Data Types

The Stylus SDK makes use of the popular Alloy library (from the developers of ethers-rs and Foundry) to represent various native Solidity types as Rust types and to seamlessly convert between them when needed. These are needed since there are a number of custom types (like address) and large integers that are not natively supported in Rust.

In this section, we'll focus on the following types:

• U256
• I256
• Address
• bool

More in-depth documentation about the available methods and types in the Alloy library can be found in their docs. It also helps to cross-reference with Solidity docs if you don't already have a solid understanding of those types.

Learn More

• Alloy docs (v0.3.2)
  • Address
  • Signed
  • Uint
• Solidity docs (v0.8.19)

Integers

Alloy defines a set of convenient Rust types to represent the typically sized integers used in Solidity. The type U256 represents a 256-bit unsigned integer, meaning it cannot be negative. The range for a U256 number is 0 to 2^256 - 1.

Negative numbers are allowed for I types, such as I256. These represent signed integers.

• U256 maps to uint256 ... I256 maps to int256
• U128 maps to uint128 ... I128 maps to int128
• ...
• U8 maps to uint8 ... I8 maps to int8

Integer Usage

// Unsigned
let eight_bit: U8 = U8::from(1);
let two_fifty_six_bit: U256 = U256::from(0xff_u64);

// Out: Stylus says: '8-bit: 1 | 256-bit: 255'
console!("8-bit: {} | 256-bit: {}", eight_bit, two_fifty_six_bit);

// Signed
let eight_bit: I8 = I8::unchecked_from(-1);
let two_fifty_six_bit: I256 = I256::unchecked_from(0xff_u64);

// Out: Stylus says: '8-bit: -1 | 256-bit: 255'
console!("8-bit: {} | 256-bit: {}", eight_bit, two_fifty_six_bit);

Expanded Integer Usage

// Use `try_from` if you're not sure it'll fit
let a = I256::try_from(20003000).unwrap();
// Or parse from a string
let b = "100".parse::<I256>().unwrap();
// With hex characters
let c = "-0x138f".parse::<I256>().unwrap();
// Underscores are ignored
let d = "1_000_000".parse::<I256>().unwrap();

// Math works great
let e = a * b + c - d;
// Out: Stylus says: '20003000 * 100 + -5007 - 1000000 = 1999294993'
console!("{} * {} + {} - {} = {}", a, b, c, d, e);

// Useful constants
let f = I256::MAX;
let g = I256::MIN;
let h = I256::ZERO;
let i = I256::MINUS_ONE;

// Stylus says: '5789...9967, -5789...9968, 0, -1'
console!("{f}, {g}, {h}, {i}");
// As hex: Stylus says: '0x7fff...ffff, 0x8000...0000, 0x0, 0xffff...ffff'
console!("{:#x}, {:#x}, {:#x}, {:#x}", f, g, h, i);

Address

Ethereum addresses are 20 bytes in length, or 160 bits. Alloy provides a number of helper utilities for converting to addresses from strings, bytes, numbers, and addresses.

Address Usage

// From a 20 byte slice, all 1s
let addr1 = Address::from([0x11; 20]);
// Out: Stylus says: '0x1111111111111111111111111111111111111111'
console!("{addr1}");

// Use the address! macro to parse a string as a checksummed address
let addr2 = address!("d8da6bf26964af9d7eed9e03e53415d37aa96045");
// Out: Stylus says: '0xd8dA6BF26964aF9D7eEd9e03E53415D37aA96045'
console!("{addr2}");

// Format compressed addresses for output
// Out: Stylus says: '0xd8dA…6045'
console!("{addr2:#}");

Boolean

Use native Rust primitives where it makes sense and where no equivalent Alloy primitive exists.

Boolean Usage

let frightened: bool = true;
// Out: Stylus says: 'Boo! Did I scare you?'
console!("Boo! Did I scare you?");

let response = match frightened {
    true => "Yes!".to_string(),
    false => "No!".to_string(),
};

// Out: Stylus says: 'Yes!'
console!("{response}");

Boilerplate

src/lib.rs

#![cfg_attr(not(any(feature = "export-abi", test)), no_main)]
extern crate alloc;
use alloc::{string::ToString, vec::Vec};

use stylus_sdk::{
    alloy_primitives::{address, Address, I256, I8, U256, U8}, console, prelude::*, ArbResult
};

#[storage]
#[entrypoint]
pub struct Data {
    
}


#[public]
impl Data {
fn user_main(_input: Vec<u8>) -> ArbResult {
    // Use native Rust primitives where they make sense
    // and where no equivalent Alloy primitive exists
    let frightened: bool = true;
    // Out: Stylus says: 'Boo! Did I scare you?'
    console!("Boo! Did I scare you?");

    let _response = match frightened {
        true => "Yes!".to_string(),
        false => "No!".to_string(),
    };

    // Out: Stylus says: 'Yes!'
    console!("{_response}");

    // U256 stands for a 256-bit *unsigned* integer, meaning it cannot be
    // negative. The range for a U256 number is 0 to 2^256 - 1. Alloy provides
    // a set of unsigned integer types to represent the various sizes available
    // in the EVM.
    //    U256 maps to uint256
    //    U128 maps to uint128
    //    ...
    //    U8 maps to uint8
    let _eight_bit: U8 = U8::from(1);
    let _two_fifty_six_bit: U256 = U256::from(0xff_u64);

    // Out: Stylus says: '8-bit: 1 | 256-bit: 255'
    console!("8-bit: {} | 256-bit: {}", _eight_bit, _two_fifty_six_bit);

    // Negative numbers are allowed for I types. These represent signed integers.
    //    I256 maps to int256
    //    I128 maps to int128
    //    ...
    //    I8 maps to int8
    let _eight_bit: I8 = I8::unchecked_from(-1);
    let _two_fifty_six_bit: I256 = I256::unchecked_from(0xff_u64);

    // Out: Stylus says: '8-bit: -1 | 256-bit: 255'
    console!("8-bit: {} | 256-bit: {}", _eight_bit, _two_fifty_six_bit);

    // Additional usage of integers

    // Use `try_from` if you're not sure it'll fit
    let a = I256::try_from(20003000).unwrap();
    // Or parse from a string
    let b = "100".parse::<I256>().unwrap();
    // With hex characters
    let c = "-0x138f".parse::<I256>().unwrap();
    // Underscores are ignored
    let d = "1_000_000".parse::<I256>().unwrap();

    // Math works great
    let _e = a * b + c - d;
    // Out: Stylus says: '20003000 * 100 + -5007 - 1000000 = 1999294993'
    console!("{} * {} + {} - {} = {}", a, b, c, d, _e);

    // Useful constants
    let _f = I256::MAX;
    let _g = I256::MIN;
    let _h = I256::ZERO;
    let _i = I256::MINUS_ONE;

    // Stylus says: '5789...9967, -5789...9968, 0, -1'
    console!("{_f}, {_g}, {_h}, {_i}");
    // As hex: Stylus says: '0x7fff...ffff, 0x8000...0000, 0x0, 0xffff...ffff'
    console!("{:#x}, {:#x}, {:#x}, {:#x}", _f, _g, _h, _i);

    // Ethereum addresses are 20 bytes in length, or 160 bits. Alloy provides a number of helper utilities for converting to addresses from strings, bytes, numbers, and addresses

    // From a 20 byte slice, all 1s
    let _addr1 = Address::from([0x11; 20]);
    // Out: Stylus says: '0x1111111111111111111111111111111111111111'
    console!("{_addr1}");

    // Use the address! macro to parse a string as a checksummed address
    let _addr2 = address!("d8da6bf26964af9d7eed9e03e53415d37aa96045");
    // Out: Stylus says: '0xd8dA6BF26964aF9D7eEd9e03E53415D37aA96045'
    console!("{_addr2}");

    // Format compressed addresses for output
    // Out: Stylus says: '0xd8dA…6045'
    console!("{_addr2:#}");

    Ok(Vec::new())
}
}

Cargo.toml

[package]
name = "stylus_data_example"
version = "0.1.7"
edition = "2021"
license = "MIT OR Apache-2.0"
keywords = ["arbitrum", "ethereum", "stylus", "alloy"]

[dependencies]
alloy-primitives = "0.7.6"
alloy-sol-types = "0.7.6"
mini-alloc = "0.4.2"
stylus-sdk = "0.6.0"
hex = "0.4.3"

[dev-dependencies]
tokio = { version = "1.12.0", features = ["full"] }
ethers = "2.0"
eyre = "0.6.8"

[features]
export-abi = ["stylus-sdk/export-abi"]

[lib]
crate-type = ["lib", "cdylib"]

[profile.release]
codegen-units = 1
strip = true
lto = true
panic = "abort"
opt-level = "s"